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metamask-extension/app/scripts/controllers/network/network.js
Mark Stacey 3ba3b330f6 Use strict assertion mode everywhere (#11012)
The `assert` module has two modes: "Legacy" and "strict". When using
strict mode, the "strict" version of each assertion method is implied.
Whereas in legacy mode, by default it will use the deprecated, "loose"
version of each assertion.

We now use strict mode everywhere. A few tests required updates where
they were asserting the wrong thing, and it was passing beforehand due
to the loose matching.
2021-06-07 10:02:39 -02:30

360 lines
10 KiB
JavaScript

import { strict as assert } from 'assert';
import EventEmitter from 'events';
import { ComposedStore, ObservableStore } from '@metamask/obs-store';
import { JsonRpcEngine } from 'json-rpc-engine';
import providerFromEngine from 'eth-json-rpc-middleware/providerFromEngine';
import log from 'loglevel';
import {
createSwappableProxy,
createEventEmitterProxy,
} from 'swappable-obj-proxy';
import EthQuery from 'eth-query';
import {
RINKEBY,
MAINNET,
INFURA_PROVIDER_TYPES,
NETWORK_TYPE_RPC,
NETWORK_TYPE_TO_ID_MAP,
MAINNET_CHAIN_ID,
RINKEBY_CHAIN_ID,
INFURA_BLOCKED_KEY,
} from '../../../../shared/constants/network';
import {
isPrefixedFormattedHexString,
isSafeChainId,
} from '../../../../shared/modules/network.utils';
import getFetchWithTimeout from '../../../../shared/modules/fetch-with-timeout';
import createMetamaskMiddleware from './createMetamaskMiddleware';
import createInfuraClient from './createInfuraClient';
import createJsonRpcClient from './createJsonRpcClient';
const env = process.env.METAMASK_ENV;
const fetchWithTimeout = getFetchWithTimeout(30000);
let defaultProviderConfigOpts;
if (process.env.IN_TEST === 'true') {
defaultProviderConfigOpts = {
type: NETWORK_TYPE_RPC,
rpcUrl: 'http://localhost:8545',
chainId: '0x539',
nickname: 'Localhost 8545',
};
} else if (process.env.METAMASK_DEBUG || env === 'test') {
defaultProviderConfigOpts = { type: RINKEBY, chainId: RINKEBY_CHAIN_ID };
} else {
defaultProviderConfigOpts = { type: MAINNET, chainId: MAINNET_CHAIN_ID };
}
const defaultProviderConfig = {
ticker: 'ETH',
...defaultProviderConfigOpts,
};
export const NETWORK_EVENTS = {
// Fired after the actively selected network is changed
NETWORK_DID_CHANGE: 'networkDidChange',
// Fired when the actively selected network *will* change
NETWORK_WILL_CHANGE: 'networkWillChange',
// Fired when Infura returns an error indicating no support
INFURA_IS_BLOCKED: 'infuraIsBlocked',
// Fired when not using an Infura network or when Infura returns no error, indicating support
INFURA_IS_UNBLOCKED: 'infuraIsUnblocked',
};
export default class NetworkController extends EventEmitter {
constructor(opts = {}) {
super();
// create stores
this.providerStore = new ObservableStore(
opts.provider || { ...defaultProviderConfig },
);
this.previousProviderStore = new ObservableStore(
this.providerStore.getState(),
);
this.networkStore = new ObservableStore('loading');
this.store = new ComposedStore({
provider: this.providerStore,
previousProviderStore: this.previousProviderStore,
network: this.networkStore,
});
// provider and block tracker
this._provider = null;
this._blockTracker = null;
// provider and block tracker proxies - because the network changes
this._providerProxy = null;
this._blockTrackerProxy = null;
this.on(NETWORK_EVENTS.NETWORK_DID_CHANGE, this.lookupNetwork);
}
/**
* Sets the Infura project ID
*
* @param {string} projectId - The Infura project ID
* @throws {Error} if the project ID is not a valid string
* @return {void}
*/
setInfuraProjectId(projectId) {
if (!projectId || typeof projectId !== 'string') {
throw new Error('Invalid Infura project ID');
}
this._infuraProjectId = projectId;
}
initializeProvider(providerParams) {
this._baseProviderParams = providerParams;
const { type, rpcUrl, chainId } = this.getProviderConfig();
this._configureProvider({ type, rpcUrl, chainId });
this.lookupNetwork();
}
// return the proxies so the references will always be good
getProviderAndBlockTracker() {
const provider = this._providerProxy;
const blockTracker = this._blockTrackerProxy;
return { provider, blockTracker };
}
verifyNetwork() {
// Check network when restoring connectivity:
if (this.isNetworkLoading()) {
this.lookupNetwork();
}
}
getNetworkState() {
return this.networkStore.getState();
}
setNetworkState(network) {
this.networkStore.putState(network);
}
isNetworkLoading() {
return this.getNetworkState() === 'loading';
}
lookupNetwork() {
// Prevent firing when provider is not defined.
if (!this._provider) {
log.warn(
'NetworkController - lookupNetwork aborted due to missing provider',
);
return;
}
const chainId = this.getCurrentChainId();
if (!chainId) {
log.warn(
'NetworkController - lookupNetwork aborted due to missing chainId',
);
this.setNetworkState('loading');
return;
}
// Ping the RPC endpoint so we can confirm that it works
const ethQuery = new EthQuery(this._provider);
const initialNetwork = this.getNetworkState();
const { type } = this.getProviderConfig();
const isInfura = INFURA_PROVIDER_TYPES.includes(type);
if (isInfura) {
this._checkInfuraAvailability(type);
} else {
this.emit(NETWORK_EVENTS.INFURA_IS_UNBLOCKED);
}
ethQuery.sendAsync({ method: 'net_version' }, (err, networkVersion) => {
const currentNetwork = this.getNetworkState();
if (initialNetwork === currentNetwork) {
if (err) {
this.setNetworkState('loading');
return;
}
this.setNetworkState(networkVersion);
}
});
}
getCurrentChainId() {
const { type, chainId: configChainId } = this.getProviderConfig();
return NETWORK_TYPE_TO_ID_MAP[type]?.chainId || configChainId;
}
setRpcTarget(rpcUrl, chainId, ticker = 'ETH', nickname = '', rpcPrefs) {
assert.ok(
isPrefixedFormattedHexString(chainId),
`Invalid chain ID "${chainId}": invalid hex string.`,
);
assert.ok(
isSafeChainId(parseInt(chainId, 16)),
`Invalid chain ID "${chainId}": numerical value greater than max safe value.`,
);
this.setProviderConfig({
type: NETWORK_TYPE_RPC,
rpcUrl,
chainId,
ticker,
nickname,
rpcPrefs,
});
}
async setProviderType(type, rpcUrl = '', ticker = 'ETH', nickname = '') {
assert.notStrictEqual(
type,
NETWORK_TYPE_RPC,
`NetworkController - cannot call "setProviderType" with type "${NETWORK_TYPE_RPC}". Use "setRpcTarget"`,
);
assert.ok(
INFURA_PROVIDER_TYPES.includes(type),
`Unknown Infura provider type "${type}".`,
);
const { chainId } = NETWORK_TYPE_TO_ID_MAP[type];
this.setProviderConfig({ type, rpcUrl, chainId, ticker, nickname });
}
resetConnection() {
this.setProviderConfig(this.getProviderConfig());
}
/**
* Sets the provider config and switches the network.
*/
setProviderConfig(config) {
this.previousProviderStore.updateState(this.getProviderConfig());
this.providerStore.updateState(config);
this._switchNetwork(config);
}
rollbackToPreviousProvider() {
const config = this.previousProviderStore.getState();
this.providerStore.updateState(config);
this._switchNetwork(config);
}
getProviderConfig() {
return this.providerStore.getState();
}
getNetworkIdentifier() {
const provider = this.providerStore.getState();
return provider.type === NETWORK_TYPE_RPC ? provider.rpcUrl : provider.type;
}
//
// Private
//
async _checkInfuraAvailability(network) {
const rpcUrl = `https://${network}.infura.io/v3/${this._infuraProjectId}`;
let networkChanged = false;
this.once(NETWORK_EVENTS.NETWORK_DID_CHANGE, () => {
networkChanged = true;
});
try {
const response = await fetchWithTimeout(rpcUrl, {
method: 'POST',
body: JSON.stringify({
jsonrpc: '2.0',
method: 'eth_blockNumber',
params: [],
id: 1,
}),
});
if (networkChanged) {
return;
}
if (response.ok) {
this.emit(NETWORK_EVENTS.INFURA_IS_UNBLOCKED);
} else {
const responseMessage = await response.json();
if (networkChanged) {
return;
}
if (responseMessage.error === INFURA_BLOCKED_KEY) {
this.emit(NETWORK_EVENTS.INFURA_IS_BLOCKED);
}
}
} catch (err) {
log.warn(`MetaMask - Infura availability check failed`, err);
}
}
_switchNetwork(opts) {
this.emit(NETWORK_EVENTS.NETWORK_WILL_CHANGE);
this.setNetworkState('loading');
this._configureProvider(opts);
this.emit(NETWORK_EVENTS.NETWORK_DID_CHANGE, opts.type);
}
_configureProvider({ type, rpcUrl, chainId }) {
// infura type-based endpoints
const isInfura = INFURA_PROVIDER_TYPES.includes(type);
if (isInfura) {
this._configureInfuraProvider(type, this._infuraProjectId);
// url-based rpc endpoints
} else if (type === NETWORK_TYPE_RPC) {
this._configureStandardProvider(rpcUrl, chainId);
} else {
throw new Error(
`NetworkController - _configureProvider - unknown type "${type}"`,
);
}
}
_configureInfuraProvider(type, projectId) {
log.info('NetworkController - configureInfuraProvider', type);
const networkClient = createInfuraClient({
network: type,
projectId,
});
this._setNetworkClient(networkClient);
}
_configureStandardProvider(rpcUrl, chainId) {
log.info('NetworkController - configureStandardProvider', rpcUrl);
const networkClient = createJsonRpcClient({ rpcUrl, chainId });
this._setNetworkClient(networkClient);
}
_setNetworkClient({ networkMiddleware, blockTracker }) {
const metamaskMiddleware = createMetamaskMiddleware(
this._baseProviderParams,
);
const engine = new JsonRpcEngine();
engine.push(metamaskMiddleware);
engine.push(networkMiddleware);
const provider = providerFromEngine(engine);
this._setProviderAndBlockTracker({ provider, blockTracker });
}
_setProviderAndBlockTracker({ provider, blockTracker }) {
// update or intialize proxies
if (this._providerProxy) {
this._providerProxy.setTarget(provider);
} else {
this._providerProxy = createSwappableProxy(provider);
}
if (this._blockTrackerProxy) {
this._blockTrackerProxy.setTarget(blockTracker);
} else {
this._blockTrackerProxy = createEventEmitterProxy(blockTracker, {
eventFilter: 'skipInternal',
});
}
// set new provider and blockTracker
this._provider = provider;
this._blockTracker = blockTracker;
}
}